Assembly structure for building block puzzle, and building block toys

ABSTRACT

The present invention discloses an assembly structure for building block puzzle and building block toys. The assembly structure for building block puzzle includes a movable building block constructing piece and a constructing base, the movable building block constructing piece is supported on the constructing base by an elastic member, the elastic member achieves compression under an effect of an external pressure which acts on the movable building block constructing piece and the constructing base, and makes the movable building block constructing piece and the constructing base move relatively close to each other, and when the external pressure disappears, the elastic member supports the movable building block constructing piece by a pre-pressure. The present invention has a simple and ingenious structure which is easy to produce with low cost. The problem that has never been solved in the field of building blocks are creatively solved by a design which is nearly the most simple, the safest and the most reliable, and has the most compatibility. It is very convenient to use and can be assembled at will and simply disassembled, greatly improving playability of the building block toys.

TECHNICAL FIELD

The present invention relates to a field of building block toys, andspecifically relates to an assembly structure for building block puzzle,and building block toys.

BACKGROUND

In the field of building block in the art, a building block baseboard(constructing base) is an integrated unmovable single baseboard forbuilding blocks. Owing to its immobility, when a plurality of buildingblock puzzle pieces are assembled on the building block baseboard, thereis no gap or a minimal gap between the building blocks. When onebuilding block therein is surrounded by other building blocks, owing tothat the building block puzzle pieces are tightly around after assembly,if the building block in the middle is to be disassembled, it isnecessary to disassemble the building blocks from the edge positionpiece by piece to fulfill the disassembly. Besides, such disassembly isinconvenient in use. Before the disclosure of the present application,there's no related teach in the prior art, nor any reports of how tosolve such problem. It is a problem that has never been solved in thefield of building block, and there's no building block product thatsolves this problem at home and abroad. By several years of research,the applicant has tried a plurality of solutions but cannot solve theabove problem properly, especially with low cost and high efficiency.Whereas, using a complicated structure to solve the problem ofdisassembly may not require inventive work, but it needs a relativelyhigh cost and is unfavorable to a mass production. Even the complicatedstructure is unsafe to users, like children, and thus it cannot bepopularized. Therefore, the key of the present invention is tocreatively solve the problem that has never been solved in the field ofbuilding blocks, by a design which is nearly the most simple, the safestand the most reliable, and has the most compatibility. It may seems verysimple after the disclosure of the present application, but thoseskilled in the art hasn't found a good solutions before the disclosureof the present application, including that the applicant didn't figureout an excellent solution before. However, as some inventions that arecommonly accepted and complimented by people, the present inventioningeniously solves the problem that has never been solved before with asolution which is nearly the simplest, the most reliable with leastcost.

SUMMARY OF THE INVENTION

An objective of the present invention is to overcome the above drawbacksin the prior art, and to provide an assembly structure for buildingblock puzzle, and building block toys.

The objective of the present invention is realized by at least one ofthe following technical solutions.

An assembly structure for building block puzzle, includes a movablebuilding block constructing piece and a constructing base. and themovable building block constructing piece is supported on theconstructing base by an elastic member, the elastic member achievescompression under an effect of an external pressure which acts on themovable building block constructing piece and the constructing base, andmakes the movable building block constructing piece and the constructingbase move relatively close to each other, and when the external pressuredisappears, the elastic member supports the movable building blockconstructing piece to return to a normal position by a pre-pressure.

Further, a relationship between the movable building block constructingpiece and the constructing base is a one-to-one assembly relationship, asize of one constructing base only satisfies supporting one movablebuilding block constructing piece, and meanwhile a module is made up ofthe movable building block constructing piece and the constructing base,a bottom surface structure of the constructing base is consistent withthat of a building block, so that the module has a function of thebuilding block; and a top surface of the movable building blockconstructing piece shows a building block pattern or has a structure forplugging a bottom of the building block (a structure consistent with abaseboard of a building block puzzle in the prior art can be used, forexample holes and cylinders of building block are provided forassembling the building blocks).

Further, a relationship between the movable building block constructingpiece and the constructing base is a many-to-one assembly relationship,i.e. a plurality of said movable building block constructing pieces areassembled on said one constructing base, the constructing base is anintegrated structure, each of the movable building block constructingpieces is supported on the constructing base independently by theelastic member, and each of the movable building block constructingpieces moves relatively close to the constructing base under the effectof the external pressure; the plurality of said movable building blockconstructing pieces are arranged at equal height over said oneconstructing base, top surfaces of a plurality of said movable buildingblock constructing pieces are arranged as a structure for plugging aplurality of said building blocks to complete the puzzle, and the topsurface of the movable building block constructing piece has a structurefor plugging a bottom of one building block (a structure consistent witha baseboard of a building block puzzle in the prior art can be used, forexample holes and cylinders of building block are provided forassembling the building blocks).

Further, the movable building block constructing piece is provided withan upper limit member, for joining with a lower limit member provided bythe constructing base to achieve a snap-fit connection and a limitfunction, so that the movable building block constructing piece and theconstructing base not only can move relatively after the snap-fit butalso cannot separate from each other under an effect of the pre-pressureof the elastic member; the upper limit member may be provided on a sidewall (an outer side wall or an inner side wall) of the movable buildingblock constructing piece, and may be provided inside the movablebuilding block constructing piece, and the lower limit member may beprovided on a side wall (an inner side wall or an outer side wall) ofthe constructing base, and may be provided inside the constructing base.

The upper limit member may be a protrusion on an outer side face of themovable building block constructing piece, and the lower limit membermay be a protrusion on an inner side face of the constructing base. Theexternal pressure acting on the movable building block constructingpiece and the constructing base makes two protrusions squeeze over eachother to achieve the snap-fit, and prevents separation between themovable building block constructing piece and the constructing base whenthe elastic member rebounds (the separation according to the presentinvention referring to the return or return process of a spring makesthe movable building block constructing piece separate from theconstructing base).

Further, a gap is provided between the upper limit member of the movablebuilding block constructing piece and the side wall of the movablebuilding block constructing piece, i.e. the upper limit member isindependently provided on an inner top surface of the movable buildingblock constructing piece; and a gap is provided between the lower limitmember of the constructing base and the side wall of the constructingbase, i.e. the lower limit member is independently provided on an innerbottom surface of the constructing base.

Further, the upper limit member provided by an inner side of the movablebuilding block constructing piece is a rectangular side wall providedinside the movable building block constructing piece independent of theside wall, and the lower limit member provided by an inner side of theconstructing base is a rectangular side wall independent of the sidewall. When the rectangular side wall provided inside the movablebuilding block constructing piece can be inserted in the rectangularside wall provided inside the constructing base, at least one of therectangular side wall provided by the movable building blockconstructing piece and the rectangular side wall provided by theconstructing base at least has one protrusion for achieving the snap-fitconnection during insertion and preventing the movable building blockconstructing piece and the constructing base from separating from eachother.

Further, after the upper limit member provided by the movable buildingblock constructing piece and the lower limit member provided by theconstructing base squeeze over each other to achieve the snap-fit,movement between the movable building block constructing piece and theconstructing base in a direction parallel to a bottom surface of theconstructing base is limited by one or more of the side wall of themovable building block constructing piece, the side wall of theconstructing base, the upper limit member and the lower limit member(i.e. movement cannot be performed in this parallel direction, ormovement can only be performed by a small distance in the case that theconnection between the building block constructing piece and theconstructing base, and proper functioning thereof are not affected. Inorder to make the joining as stable as possible, the movement in thisparallel direction should be minimized).

Further, a distance by which the movable building block constructingpiece and the constructing base move relatively closest to each other islimited by one or more of the respective side walls, the upper limitmember and the lower limit member, or is limited by a press-limit memberprovided additionally, and the press-limit member is provided inside atleast one of the movable building block constructing piece and theconstructing base.

Further, the elastic member is a spring (it may be any member thatrebounds after being compressed, for example, a spring piece and thelike), and the spring is prevented from shifting in a non-stretchdirection by a member provided inside at least one of the movablebuilding block constructing piece and the constructing base with aheight less than a length of the spring (it may be a hollow cylinderlocated at an outer side or an inner side of the spring), or the springis prevented from shifting in the non-stretch direction by at least oneof the side wall of the movable building block constructing piece andthe side wall of the constructing base. The movable building blockconstructing piece and the constructing base are generally in the shapeof rectangle.

The present invention also provides building block toys having theassembly structure for building block puzzle, including the assemblystructure for building block puzzle and building blocks, and thebuilding blocks can be assembled on the movable building blockconstructing piece of the assembly structure for building block puzzleby means of insertion

Compared to the prior art, the present invention has following benefitsand technical effects:

The structure according to the present invention is a movable structurefor building block. After puzzle pieces for building block (buildingblocks) are assembled, each puzzle piece moves downward by pressing,automatically rebounds and returns under the effect of the elasticmember, enhancing an entertainment effect, and when any one puzzle pieceis disassembled, two building blocks adjacent to any puzzle piece forbuilding block can be pressed randomly, exposing opposite edge positions(a finger-position) of the building block to be disassemble, and thenthe puzzle piece to be disassemble may be pulled out easily, withconvenient use. In addition, the movable building block constructingpiece and the constructing base make up a module, and a bottom of theconstructing base in a single module may be a standard hole structure ofbuilding block, not only having an advantage of a movable constructingbaseboard, but also matching with a conventional baseboard for buildingblock when in use, without being limited to the size. Users can assemblepuzzles at will as the size they want, and products are given more usepossibilities.

In conclusion, the present invention has a simple and ingeniousstructure which is easy to produce with low cost. The problem that hasnever been solved in the field of building blocks are creatively solvedby a design which is nearly the most simple, the safest and the mostreliable, and has the most compatibility. It is very convenient to useand can be assembled at will and simply disassembled, greatly improvingplayability of the building block toys. As some inventions commonlyaccepted and complimented by people, the present invention ingeniouslysolves the problem that has never been solved before with a solutionwhich is nearly the simplest, the most reliable with least cost, andcertainly such invention will be promoted extensively.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1a to FIG. 1c show a top view, a front view and a side view of anoverall structure in an embodiment of the present invention when movablebuilding block constructing pieces and a constructing base are in amany-to-one relationship.

FIG. 2 shows a partial section view of an assembly structure forbuilding block puzzle shown in FIG. 1 b.

FIG. 3 shows a schematic view of a conversion condition of an assemblystructure for building block puzzle in one embodiment.

FIG. 4a and FIG. 4b show a resulting top view and a resulting front viewof the assembly structure for building block puzzle with building blocksinserted on in the embodiment.

FIG. 5 shows a schematic view when the building blocks are disassembledfrom the assembly structure for building block puzzle in the embodiment.

FIG. 6 shows one structural view that a single movable building blockconstructing piece and a single constructing base make up one module inthe embodiment.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Specific implementations of the present invention are further describedin the following in combination with accompanied drawings andembodiments, but implementation and protection of the present inventionare not limited to these.

As shown in FIG. 1a to FIG. 1c , as an embodiment of an assemblystructure for building block puzzle, a plurality of movable buildingblock constructing pieces 2 are assembled on a whole piece ofconstructing base 1. A relationship between the movable building blockconstructing piece and the constructing base is a many-to-one assemblyrelationship, and the constructing base is an integrated structure andcan be made into different sizes according to different requirements.Each movable building block constructing piece is supported on theconstructing base independently by an elastic member, and each movablebuilding block constructing piece moves relatively close to theconstructing base under an effect of an external pressure. A pluralityof said movable building block constructing pieces are arranged at equalheight over said one constructing base, and top surfaces of theplurality of said movable building block constructing pieces arearranged as a structure for plugging building blocks to complete thepuzzle. A top surface structure of the movable building blockconstructing piece is a structure for plugging a bottom of one buildingblock (for example, providing a hole and a cylinder of building block).As one embodiment, the top surface structure can be consistent with abaseboard of a building block puzzle in the prior art, providing holesand cylinders of building block 201 for assembling the building blocksin the art, as shown in FIG. 1a to FIG. 1 c.

As shown in FIG. 2 to FIG. 4, the movable building block constructingpieces 2 are supported on the constructing base 1 by the elastic memberthat can be any member that rebounds after being compressed, such as aspring, a spring piece and the like. In the present embodiment, thespring 3 is selected. The elastic member achieves compression under aneffect of an external pressure which acts on the movable building blockconstructing piece and the constructing base, and makes the movablebuilding block constructing piece and the constructing base moverelatively close to each other, and when the external pressuredisappears, the elastic member supports the movable building blockconstructing piece by a pre-pressure.

As one embodiment, the movable building block constructing piece isprovided with an upper limit member 4 for joining with a lower limitmember 5 provided by the constructing base to achieve a snap-fitconnection and a limit function, so that the movable building blockconstructing piece and the constructing base can not only moverelatively after the snap-fit but also cannot separate from each otherwhen the elastic member rebounds under an effect of the pre-pressure.The upper limit member can be provided on a side wall (an outer sidewall or an inner side wall) of the movable building block constructingpiece, or inside the movable building block constructing piece (as shownin FIG. 2 and FIG. 3), and the lower limit member can be provided on aside wall (an inner side wall or an outer side wall) of the constructingbase, or inside the constructing base. As shown in FIG. 2, the lowerlimit member is provided on the inner side wall of the constructingbase.

The upper limit member can be a protrusion (such protrusion can behook-shaped) on an outer side face of the movable building blockconstructing piece, and the lower limit member can be a protrusion (suchprotrusion can be hook-shaped) on the inner side face of theconstructing base. The external pressure acting on the movable buildingblock constructing piece and the constructing base makes two protrusionssqueeze over each other to achieve the snap-fit, and prevents separationbetween the movable building block constructing piece and theconstructing base when the elastic member rebounds (as shown in FIG. 3).

As one embodiment, a gap is provided between the upper limit member ofthe movable building block constructing piece and the side wall of themovable building block constructing piece, i.e. the upper limit memberis independently provided on an inner top surface of the movablebuilding block constructing piece (as shown in FIG. 2 and FIG. 3).Similarly, a gap is provided between the lower limit member of theconstructing base and the side wall of the constructing base, i.e. thelower limit member is independently provided on an inner bottom surfaceof the constructing base. These two manners can be performed together oralternatively.

As shown in FIG. 2 and FIG. 3, the upper limit member provided by theinner side of the movable building block constructing piece is arectangular side wall provided inside the movable building blockconstructing piece independent of the side wall. Similarly, the lowerlimit member provided by the inner side of the constructing base canalso be a rectangular side wall independent of the side wall. When therectangular side wall provided inside the movable building blockconstructing piece can be inserted in the rectangular side wall providedinside the constructing base, at least one of the rectangular side wallprovided by the movable building block constructing piece and therectangular side wall provided by the constructing base at least has oneprotrusion for achieving the snap-fit connection during insertion andpreventing the movable building block constructing piece and theconstructing base from separating from each other. As an embodiment, forexample, the rectangular side wall provided by the movable buildingblock constructing piece can be provided with a protrusion, while therectangular side wall provided by the constructing base is provided witha protrusion or a groove at the corresponding position, for joining toachieve the snap-fit connection and limitation. After the upper limitmember provided by the movable building block constructing piece and thelower limit member provided by the constructing base squeeze over eachother to achieve the snap-fit (as shown in FIG. 3), movement between themovable building block constructing piece and the constructing base in adirection parallel to the bottom surface of the constructing base islimited by one or more of the side wall of the movable building blockconstructing piece, the side wall of the constructing base, the upperlimit member and the lower limit member. In the present embodiment, asshown in the figures, movement in said parallel direction is limited bythe upper limit member and the side wall of the constructing base, sothat movement cannot be performed in this parallel direction, ormovement can only be performed by a small distance in the case that theconnection between the building block constructing piece and theconstructing base, and proper functioning thereof are not affected. Inorder to make the joining as stable as possible, the movement in thisparallel direction should be minimized.

In a further implementation, a distance by which the movable buildingblock constructing piece and the constructing base move relativelyclosest to each other is limited by one or more of the respective sidewalls, the upper limit member and the lower limit member, or is limitedby a press-limit member provided additionally, and the press-limitmember is provided inside at least one of the movable building blockconstructing piece and the constructing base. As shown in FIG. 3, theupper limit member is used in the present embodiment to limit saiddistance by which the movable building block constructing piece and theconstructing base move relatively closest to each other.

As shown in FIG. 2 and FIG. 3, a spring limit member 6 is providedinside at least one of the movable building block constructing piece andthe constructing base, with a height less than a length of the spring,for preventing the spring from shifting in a non-stretch direction (thespring limit member 6 may be a hollow cylinder located at an outer sideor an inner side of the spring, and the former one is used in thepresent embodiment), or the spring is prevented from shifting in thenon-stretch direction by at least one of the side wall of the movablebuilding block constructing piece and the side wall of the constructingbase (in this case, a diameter of the spring is relatively large). Themovable building block constructing piece and the constructing base aregenerally in the shape of rectangle, and thus the hollow cylinderlocated at the outer side or the inner side of the spring is generallyused as the spring limit member 6.

FIG. 4 is a resulting view after inserting building blocks 401. As for aconventional building block insertion base, owing to that building blockpuzzle pieces are assembled tightly around, there's no handle for takingany one building block puzzle piece from the middle or other positions,and therefore a special tool is required if any one building blocktherein is desired to be disassembled. However, after applying thetechnical solution of the present invention, as shown in FIG. 5 which isa schematic view of a press manner and direction when a building blockin the middle is disassembled, as long as the adjacent building blocksat two sides are pressed, it is convenient to pull out the buildingblock to be disassembled by clamping two sides of the building block.The spring of the present embodiment can be gentle enough to onlysupport the building block and the movable building block constructingpiece. It is easy and convenient, even for children, to assemble thebuilding block and the movable building block constructing piece.

As another typical embodiment, as shown in FIG. 6, a relationshipbetween the movable building block constructing piece and theconstructing base is a one-to-one assembly relationship. A size of oneconstructing base only satisfies supporting one movable building blockconstructing piece, meanwhile a module is made up of the movablebuilding block constructing piece and the constructing base, and abottom surface structure 101 of the constructing base is consistent witha bottom of the building block, so that the module has a function of thebuilding block; and a top surface of the movable building blockconstructing piece shows a building block pattern or has a structure forplugging the bottom of the building block (a structure consistent with abaseboard of a building block puzzle in the prior art can be used, forexample holes and cylinders of building block are provided forassembling the building blocks). Such structure can be used at will witha general building block constructing baseboard or products related tobuilding blocks. The bottom of the constructing base in a single modulecan be a standard hole structure of building block, not only having anadvantage of a movable constructing baseboard, but also matching with aconventional baseboard for building block when in use, without beinglimited to the size. Users can assemble puzzles at will as the size theywant, and products are given more use possibilities.

According to the solution disclosed by the present application, thoseskilled in the art can also alter and modify the above-mentionedimplementations, such as adjusting a position of the limit member.Therefore, protection of the present invention is not limited tospecific implementation disclosed and described above. Solutions ofreplacement or simple increase-decrease made to the present inventionwithout inventive work should also be within the protection scope ofclaims of the present invention.

1. An assembly structure for building block puzzle, comprising a movablebuilding block constructing piece and a constructing base, the movablebuilding block constructing piece being supported on the constructingbase by an elastic member, the elastic member achieving compressionunder an effect of an external pressure which acts on the movablebuilding block constructing piece and the constructing base, and makingthe movable building block constructing piece and the constructing basemove relatively close to each other, and when the external pressuredisappears, the elastic member supports the movable building blockconstructing piece to return to a normal position by a pre-pressure. 2.The assembly structure for building block puzzle according to claim 1,wherein a relationship between the movable building block constructingpiece and the constructing base is a one-to-one assembly relationship, asize of one constructing base only satisfies supporting one movablebuilding block constructing piece, meanwhile a module is made up of themovable building block constructing piece and the constructing base, abottom surface structure of the constructing base is consistent withthat of a building block, so that the module has a function of thebuilding block; and a top surface of the movable building blockconstructing piece shows a building block pattern or has a structure forplugging a bottom of the building block.
 3. The assembly structure forbuilding block puzzle according to claim 1, wherein a relationshipbetween the movable building block constructing piece and theconstructing base is a many-to-one assembly relationship, a plurality ofsaid movable building block constructing pieces are assembled on saidone constructing base, the constructing base is an integrated structure,each of the movable building block constructing pieces is supported onthe constructing base independently by the elastic member, and each ofthe movable building block constructing pieces moves relatively close tothe constructing base under the effect of the external pressure, theplurality of said movable building block constructing pieces arearranged at equal height over said one constructing base, a top surfaceof the movable building block constructing piece has a structure forplugging a bottom of one building block, and the top surfaces of aplurality of said movable building block constructing pieces arearranged as a structure for plugging a plurality of said building blocksto complete the puzzle.
 4. The assembly structure for building blockpuzzle according to claim 1, wherein the movable building blockconstructing piece is provided with an upper limit member, for joiningwith a lower limit member provided by the constructing base to achieve asnap-fit connection and a limit function, so that the movable buildingblock constructing piece and the constructing base are not only capableof moving relatively after the snap-fit but also not separating fromeach other when the elastic member returns under an effect of thepre-pressure, the upper limit member is provided on a side wall of themovable building block constructing piece or inside the movable buildingblock constructing piece, and the lower limit member is provided on aside wall of the constructing base or inside the constructing base. 5.The assembly structure for building block puzzle according to claim 4,wherein a gap is provided between the upper limit member of the movablebuilding block constructing piece and the side wall of the movablebuilding block constructing piece, the upper limit member isindependently provided on an inner top surface of the movable buildingblock constructing piece, and a gap is provided between the lower limitmember of the constructing base and the side wall of the constructingbase, the lower limit member is independently provided on an innerbottom surface of the constructing base.
 6. The assembly structure forbuilding block puzzle according to claim 5, wherein the upper limitmember is a rectangular side wall provided inside the movable buildingblock constructing piece and independent of the side wall of the movablebuilding block constructing piece, the lower limit member is arectangular side wall independent of the side wall of the constructingbase, and when the rectangular side wall provided inside the movablebuilding block constructing piece is capable of being inserted in therectangular side wall provided inside the constructing base, at leastone of the rectangular side wall provided by the movable building blockconstructing piece and the rectangular side wall provided by theconstructing base at least has one protrusion thereon for achieving thesnap-fit connection during insertion and preventing the movable buildingblock constructing piece and the constructing base from separating fromeach other.
 7. The assembly structure for building block puzzleaccording to claim 4, wherein after the upper limit member and the lowerlimit member squeeze over each other to achieve the snap-fit, movementbetween the movable building block constructing piece and theconstructing base in a direction parallel to a bottom surface of theconstructing base is limited by one or more of the side wall of themovable building block constructing piece, the side wall of theconstructing base, the upper limit member and the lower limit member. 8.The assembly structure for building block puzzle according to claim 1,wherein a distance by which the movable building block constructingpiece and the constructing base move relatively closest to each other islimited by one or more of a side wall of the movable building blockconstructing piece, a side wall of the constructing base, an upper limitmember and a lower limit member, or is limited by a press-limit memberprovided additionally, and the press-limit member is provided inside atleast one of the movable building block constructing piece and theconstructing base.
 9. The assembly structure for building block puzzleaccording to claim 1, wherein the elastic member is a spring, and thespring is prevented from shifting in a non-stretch direction by a memberprovided inside at least one of the movable building block constructingpiece and the constructing base with a height less than a length of thespring, or the spring is prevented from shifting in the non-stretchdirection by at least one of a side wall of the movable building blockconstructing piece and a side wall of the constructing base. 10.Building block toys having the assembly structure for building blockpuzzle of claim 1, wherein the building block toys comprise the assemblystructure for building block puzzle, and building blocks, and thebuilding blocks is capable of being assembled on the movable buildingblock constructing piece of the assembly structure for building blockpuzzle by means of insertion.
 11. Building block toys having theassembly structure for building block puzzle of claim 2, wherein thebuilding block toys comprise the assembly structure for building blockpuzzle, and building blocks, and the building blocks is capable of beingassembled on the movable building block constructing piece of theassembly structure for building block puzzle by means of insertion. 12.Building block toys having the assembly structure for building blockpuzzle of claim 3, wherein the building block toys comprise the assemblystructure for building block puzzle, and building blocks, and thebuilding blocks is capable of being assembled on the movable buildingblock constructing piece of the assembly structure for building blockpuzzle by means of insertion.
 13. Building block toys having theassembly structure for building block puzzle of claim 4, wherein thebuilding block toys comprise the assembly structure for building blockpuzzle, and building blocks, and the building blocks is capable of beingassembled on the movable building block constructing piece of theassembly structure for building block puzzle by means of insertion. 14.Building block toys having the assembly structure for building blockpuzzle of claim 5, wherein the building block toys comprise the assemblystructure for building block puzzle, and building blocks, and thebuilding blocks is capable of being assembled on the movable buildingblock constructing piece of the assembly structure for building blockpuzzle by means of insertion.
 15. Building block toys having theassembly structure for building block puzzle of claim 6, wherein thebuilding block toys comprise the assembly structure for building blockpuzzle, and building blocks, and the building blocks is capable of beingassembled on the movable building block constructing piece of theassembly structure for building block puzzle by means of insertion. 16.Building block toys having the assembly structure for building blockpuzzle of claim 7, wherein the building block toys comprise the assemblystructure for building block puzzle, and building blocks, and thebuilding blocks is capable of being assembled on the movable buildingblock constructing piece of the assembly structure for building blockpuzzle by means of insertion.
 17. Building block toys having theassembly structure for building block puzzle of claim 8, wherein thebuilding block toys comprise the assembly structure for building blockpuzzle, and building blocks, and the building blocks is capable of beingassembled on the movable building block constructing piece of theassembly structure for building block puzzle by means of insertion. 18.Building block toys having the assembly structure for building blockpuzzle of claim 9, wherein the building block toys comprise the assemblystructure for building block puzzle, and building blocks, and thebuilding blocks is capable of being assembled on the movable buildingblock constructing piece of the assembly structure for building blockpuzzle by means of insertion.